用于细胞成像应用的高荧光氮硫共掺杂碳量子点的简易微波辅助固相合成

Facile Microwave-Assisted Solid-Phase Synthesis of Highly Fluorescent Nitrogen-Sulfur-Codoped Carbon Quantum Dots for Cellular Imaging Applications.

作者信息

Wang Yong, Zhuang Qianfen, Ni Yongnian

机构信息

College of Chemistry, Nanchang University, Nanchang, 330031 (P. R. China), Fax: (+86) 791-83969500.

State Key Laboratory of Food Science and Technology, Nanchang University, Nanchang, 330047 (P. R. China).

出版信息

Chemistry. 2015 Sep 7;21(37):13004-11. doi: 10.1002/chem.201501723. Epub 2015 Jul 27.

DOI:10.1002/chem.201501723

PMID:26227302

Abstract

Carbon quantum dots (CQDs) have recently attracted significant attention for both their fundamental science and technological applications as a new class of fluorescent zero-dimensional nanomaterials with a size below 10 nm. However, the reported methods of synthesis were generally less suitable for the large-scale production of the CQDs with high-fluorescent quantum yield (QY). In the paper, a novel one-pot microwave-assisted drying synthesis approach was presented to prepare CQDs with high QY of 61.3 % for the first time. The production yield of CQDs was 35±3 % in weight. The as-prepared CQDs were characterized by various techniques such as TEM, AFM, XRD, XPS, FTIR spectroscopy, UV/Vis absorption spectroscopy, and fluorescence spectroscopy. The results showed that the high QY of CQDs was largely attributed to the dual doping of nitrogen and sulphur into CQDs. Such CQDs were then used as live-cell imaging reagents due to their high QY, good water dispersibility, fine biocompatibility, high photostability, and low cytotoxicity.

摘要

碳量子点（CQDs）作为一类新型的尺寸小于10 nm的荧光零维纳米材料，其基础科学和技术应用最近引起了广泛关注。然而，报道的合成方法通常不太适合大规模生产具有高荧光量子产率（QY）的CQDs。在本文中，首次提出了一种新颖的一锅法微波辅助干燥合成方法来制备QY高达61.3 %的CQDs。CQDs的产量为35±3 %（重量）。通过透射电子显微镜（TEM）、原子力显微镜（AFM）、X射线衍射（XRD）、X射线光电子能谱（XPS）、傅里叶变换红外光谱（FTIR）、紫外可见吸收光谱和荧光光谱等多种技术对所制备的CQDs进行了表征。结果表明，CQDs的高QY很大程度上归因于氮和硫对CQDs的双重掺杂。由于其高QY、良好的水分散性、优异的生物相容性、高光稳定性和低细胞毒性，此类CQDs随后被用作活细胞成像试剂。

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用于细胞成像应用的高荧光氮硫共掺杂碳量子点的简易微波辅助固相合成

Facile Microwave-Assisted Solid-Phase Synthesis of Highly Fluorescent Nitrogen-Sulfur-Codoped Carbon Quantum Dots for Cellular Imaging Applications.

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